WO2005068103A1 - Conveying device - Google Patents

Abstract

Disclosed is a device for conveying workpieces through a press working line (2, 3) or a transfer molding press. Said conveying device is embodied as a telescopic feeder and is designed such that a jib which can be displaced in a longitudinal direction is mounted or guided by means of guiding carriages (30, 31, 32) that travel along. An adequate entraining mechanism is provided in order to ensure the travelling motion of the guiding carriages (30, 31, 32).

Description

"Transport device"

description

The invention relates to a transport device for

Transporting workpieces through a press line, transfer press or the like according to the preamble of claim 1.

State of the art

If the production of a workpiece requires several punching and forming processes, the individual operations required for economical production can be carried out in a press line, transfer press or large section press.

Such systems are usually provided with transport devices for automatic workpiece transport. These transport devices either have their own drives or are confirmed by the press drive. A self-propelled

Transport device is disclosed in DE 198 01 731 AI. Two stationary drive motors drive a telescopic Auslegera arrangement via a traction device arrangement. By regulating the speed and direction of rotation of the drive motors, the transport device known as a telescopic feeder performs horizontal and vertical movements. The required transport route usually consists of overlapping horizontal and vertical Movements. Any movement profiles are mobile with this system.

A telescopic feeder has proven itself in practice. However, problems arise especially when using the big one

Transport routes required. So in the manufacture of z. B. side parts for a car body, the distances between the forming stages are 6 meters and more.

A guide system with a broad base and great rigidity is then required for the telescopic feeder. However, since the length of the cantilevers should be as short as possible to avoid interference edges during transport or collisions during the forming process, this also influences the guiding quality.

Object and advantage of the invention

The invention is based on the object of further developing the state of the art and of proposing a guide for the arm or arms of a telescopic spring which ensures good guidance quality. _.

This object is achieved on the basis of a transport device according to the preamble of claim 1 by the characterizing features of claim 1.

Advantageous and expedient developments of the telescopic feeder according to claim 1 are specified in the subclaims.

The invention is based on the idea that a slow-moving boom is mounted on a fixed crossmember so that when it is moved horizontally

Cantilever the guide carriage half the displacement passed through. Because of this sequence of movements, it is a kind of accompanying support or guidance. A corresponding driving device is provided to ensure the movement of the guide carriage.

As an example, a toothed rack can be attached to the fixed crossmember and to the movable arm, which are operatively connected to a gearwheel attached to the carriage. This means that the carriage is forced into the horizontal displacement.

The desired broad guide base for the telescopic feeder is achieved by the respective horizontal position of the guide carriage.

To achieve short transport times, high accelerations and speeds are required. Since the proposed guidance system is characterized by a high degree of rigidity, the dynamic movements are easy to control. There are therefore only a small number of workpiece transport

Vibrations, whereby a defined placement on the lower tool is favored and the holding forces during transport are well manageable.

The telescopic feeders are arranged in pairs and mirror images of each other in the area of the press stands. Movable slides with a coupled crossmember are also located on the movable arms. The cross member is equipped with means for workpiece transport. The horizontal movement of the boom and the carriage is actuated by at least one controllable drive in operative connection with two toothed belt drives. Advantageously, two drives can also be used, which increases the functional reliability of the transport device, ie if one drive fails, the second drive would move the telescopic feeder out of a possible collision area.

A vertical movement is provided as a further production axis. For this purpose, a drive system for the vertical stroke is connected to the horizontally stationary mounting medium.

Since an intermediate storage or orientation station can be dispensed with in the proposed transport direction, the construction is so modular that further degrees of freedom required for changing the position of the workpieces can be integrated. As an example, the workpiece can be swiveled in and against the transport direction. For this purpose, the cross-beam is rotatably and eccentrically mounted on the slide, whereby the workpiece can be pivoted in its center of gravity.

An inclination of the cross member and thus the workpiece is also possible without any problems, since the vertical axes can be moved independently of one another. It is also possible to transport double parts without restriction.

Further details and advantages of the invention result from the following explanation of an exemplary embodiment which is shown in the figures.

The figures show:

Figure 1 partial view of 2 presses with a telescopic feeder in the workpiece removal position. Figure 2 as Figure 1, but telescopic feeder in the workpiece insertion position

FIG. 3 section through a guide carriage according to section line A-A in FIG. 1

Description of the embodiment

In FIG. 1, partial views of the forming areas of presses 2 and 3 are shown in simplified form from a press line 1. The sliding table 4 and the plunger 5 can be seen. The upper and lower tools are not shown in detail. The telescopic feeder 8 is attached to the press stands 6, 7. The drive for the vertical movement effect fixed, controllable motors 9, 10 which act on toothed racks 11, 12 via pinions. Linear guides 13, 14 ensure safe

Vertical guide. A forced synchronization of the lifting movement is achieved by the connecting shaft 41. To relieve the loads on the drives 9, 10, the weights to be moved can be compensated for by cylinders 15, 16.

The racks 11, 12 are connected to the cross member 17 on which the motors 18, 19 are arranged which drive a toothed belt 20. For reasons of functional reliability, two motors 18, 19 are proposed so that if one motor fails, the telescopic feeder can be moved out of a possible collision area with the aid of the second motor.

The toothed belt 20 is deflected via two pulleys 21, 22, which are rotatably mounted on the fixed crossmember 23, and fastened to a movable arm 24. By actuating the drives 18, 19 in the direction of rotation 25, a horizontal movement of the boom 24 in the direction of the arrow 26 is thus achieved generated. On the arm 24 there is also a horizontally movable slide 27 with a coupled cross member 28. The cross member 28 is equipped with workpiece holding means 29. The carriage 27 is moved in a known manner via toothed belt 42, which is held on the fixed cross member 23 by a clamp connection. The movable arm 24 is guided or supported on the crossmember 23 by guide carriages 30, 31, 32.

In Figure 3, the guide carriage 30 is shown in section. The rack 33 is fixed to the cross member 23 and the rack 34 to the boom 24. A gear 35 is located between the racks 33 and 34 and is in constant engagement with both. Linear guides 36 and 37 are attached to the racks 33 and 34. The guide shoes 38 and 39 of the linear ^'guide are interconnected by a holding plate fortieth

The linear guides 36, 37 are designed such that the guide shoes 38, 39 are also held perpendicular to the direction of movement. If the toothed belt 20 is driven by the motors 18, 11, this also causes the boom 24 and the rack 34 to move. The driving device for the guide carriage functions in such a way that the toothed wheel 35 rolls on the racks 33 and 34, and that with the Gear wheel 35 connected guide carriage 30 moves in the direction of the cantilever 24. The same drive and sequence of movements also apply to the guide carriage 31 and 32. As can be seen from FIGS. 1 and 2, the position of the guide carriage 30 changes with the movement of the cantilever 24 and is this rectified so that a secure support of the boom 24 is reached. The invention is not restricted to the exemplary embodiment described and illustrated. It also encompasses all professional configurations within the scope of the current claim 1, for example the movement of the guide carriages can be carried out by linear gears such as chains or toothed belts. The linear guide can also be designed in different geometrical forms, such as flat or round guides, and as sliding or rolling guides. The inventive concept can also be used without restriction with multiple telescopes. Guide carriages with entrainment devices are then advantageously arranged in each pair of telescopes.

LIST OF REFERENCE NUMBERS

1 Pressenstrasse 22 pulley

2 press 23 traverse

3 press 25 24 boom 4 sliding table 25 arrow for rotary movement

5 plungers 26 arrow for longitudinal movement

6 press stands 27 slides

7 press stands 28 cross beams

8 telescopic feeder 30 29 workpiece holder 9 motor 30 guide carriage

10 motor 31 carriage

11 rack 32 guide carriage

12 rack 33 rack

13 Linear guide 35 34 Rack 14 Linear guide 35 Gear 15 cylinder 36 Linear guide 16 cylinder 37 Linear guide 17 Cross member 38 Guide shoe 18 Motor 40 39 Guide shoe 19 Motor 40 Holding plate 20 Toothed belt 41 Connecting shaft 21 Pulley 42 Toothed belt

Claims

Claims: 1. Transport device for transporting workpieces by preferably a press line or transfer press with a lifting device which is connected to a cross member (17) which in turn carries a fixed crossmember (23) on which a movable boom (24) with a movable carriage (27) is arranged , characterized in that at least one guide carriage (30) with entraining device (33, 34, 35) is provided which can be driven in its horizontal movement by the movement of the boom (24) and that the guide carriage (30) with a linear guide (36- 39) is operatively connectable. 2. Transport device according to claim 1, characterized in that the driving device consists of racks (33, 34) and gear (35), the driving rack (34) with the boom (24) and the rack (33) with the cross member ( 23) are firmly connected. 3. Transport device according to claim 1, characterized in that the linear guide (36 - 39) is a rolling or sliding guide, which can be designed as a flat or round guide. 4. Transport device according to claim 1 to 3, characterized in that the guide shoes (38, 39) of the linear guide are connected to one another via a holding plate (40). 5. Transport device according to one or more of the preceding claims, characterized in that the movable boom (24) is designed as a telescopic multiple boom, with each pair of telescopic guide carriages (30) can be arranged with a driving device (33, 34, 35). 6. Transport device according to one or more of the preceding claims, characterized in that the driving device can be formed from a chain or toothed belt drive.